ABB CoreSense User manual

Brand: ABB

Model: CoreSense

Type: User manual

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USER GUIDE

CoreSense™

Hydrogen and Moisture Sensor

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Disclaimer

This Guide and any accompanying software are copyrighted and

all rights are reserved by ABB. This product, including software

and documentation, may not be copied, photocopied, reproduced,

translated, or reduced, in whole or in part, to any electronic medium

or machine-readable format without prior written consent from

ABB.

This document contains product specifications and performance

statements that may be in conflict with other ABB published

literature, such as product fliers and catalogs. All specifications,

product characteristics, and performance statements included

in this document are given as indications only. In case of

discrepancies between specifications given in this document and

specifications given in the official ABB product catalogs, the latter

take precedence.

ABB reserves the right to make changes to the specifications

of all equipment and software, and contents of this document,

without obligation to notify any person or organization of such

changes. Every effort has been made to ensure that the information

contained in this document is current and accurate. However, no

guarantee is given or implied that the document is error-free or that

the information is accurate.

ABB makes no representations or warranties with regard to the

product and instructional and reference materials, including, but

not limited to, all implied warranties of merchantability and fitness

for a particular purpose.

ABB does not warrant, guarantee, or make any representations

regarding the use, or the results of the use, of any software or

written materials in terms of correctness, accuracy, reliability,

currentness, or otherwise. ABB shall not be liable for errors or

omissions contained in its software or manuals, any interruptions

of service, loss of business or anticipatory profits and/or for

incidental or consequential damages in connection with the

furnishing, performance or use of these materials, even if ABB has

been advised of the possibility of such damages.

All equipment, software, and manuals are sold as is. The entire risk

as to the results and performance of the equipment and software is

assumed by the user.

The software or hardware described in this document is furnished

under a license and may be used, copied, or disclosed only in

accordance with the terms of such license.

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Table of Contents

1 Safety Information

Symbol definitions ..................................................1

General ........................................................................ 3

Electrical .....................................................................3

Handling .................................................................... 4

2 Introducing the CoreSense

3 Preparing for installation

Tools for installation ...............................................7

Tools supplied by ABB ......................................7

Spare Parts ..........................................................7

Additional tools (not supplied by ABB) ........7

Necessary protection equipment .................8

Unpacking ..................................................................9

Handling .....................................................................9

Siting on the transformer ......................................9

Planning your cabling ...........................................11

Planning your communications .........................11

Password protection ........................................... 14

4 Installing the sensor head

Installation on transformer valve ..................... 15

Bleeding the sensor ............................................. 18

Removing the cover .............................................. 20

Establishing the connections ............................21

AC power line terminal block ........................22

RS-485 to SCADA .............................................23

Ethernet to SCADA ...........................................23

Optical Ethernet to SCADA (optional) ....... 24

Wiring the alarm relays (dry-contact) ....... 24

Analog 4–20 mA outputs .............................. 25

Analog 4–20 mA inputs ................................. 26

Reinstalling the cover .......................................... 27

5 Configuring the sensor head

Connecting a laptop for the first time ........... 29

Tabs of the CoreSense web interface ..............31

Hydrogen settings .......................................... 34

Moisture settings ............................................ 35

Administration settings ................................ 36

Communication settings ...............................37

Demo mode ...................................................... 38

About dialog box ............................................. 39

Configuring alarm levels ..................................... 40

Rate-of-Change (RoC) trigger level ...........40

Latched alarms ................................................40

Visual indications and alarms ........................... 41

Meanings of the visual indicators ...............41

In case of WARNING or ALARM.................... 42

6 Post-installation check list

7 Maintenance

Replacing the fuse ................................................ 45

Taking an oil sample .............................................46

Cleaning ................................................................... 46

Before sending a spectrometer to ABB .... 46

8 FAQ and troubleshooting

A Technical specifications ................... A51

Description ...........................................................A51

Measurement specifications ..........................A51

Mechanical specifications ................................A51

Electrical specifications .................................. A52

Communication specifications ..................... A52

Environmental specifications ........................ A52

Default RS-485 configuration ........................ A53

Application TCP ports table ........................... A53

B CoreSense Hub option ......................B55

Overview ............................................................... B55

Visual indicators ............................................B56

CoreSense Hub Web user interface ............... B57

Dashboard tab ...............................................B57

History tab ......................................................B58

Settings tab ....................................................B58

Automatic detection of Modbus sensors .....

........................................................................... B60

Configuring calculated values ...................B62

Configuring 4–20 mA output channels . B64

Risks of overloading a transformer .........B65

SCADA communication ...............................B65

iv Installation Guide

Device configuration .........................................B73

eDevices model descriptions .................... B73

eDevices parameters ................................... B74

C Modbus table ......................................C77

Default RS-485 configuration .........................C77

Default TCP configuration port ......................C77

Modbus parameters ......................................... C78

D DNP3 .....................................................D81

Default RS-485 configuration ........................ D81

Default TCP configuration port ..................... D81

E IEC 61850 (CoreSense only) .............E83

PIXIT ........................................................................E83

PIXIT for Association Model ....................... E83

PIXIT for Server Model .................................E84

PIXIT for Data Set Model .............................E85

PIXIT for Substitution Model .....................E85

PIXIT for Setting Group Control Model ...E86

PIXIT for Reporting Model ..........................E86

PIXIT for Logging Model .............................E87

PIXIT for GOOSE Publish Model ................ E87

PIXIT for GOOSE Subscribe Model ...........E88

PIXIT for GOOSE Performance ..................E88

PIXIT for Control Model ...............................E89

PIXIT for Time Synchronization Model ....E92

PIXIT for File Transfer Model ......................E93

PIXIT for Service Tracking Model .............. E93

MICS ....................................................................... E94

Logical Nodes List ........................................E94

SIML–Insulation medium supervision

(liquid) ..............................................................E94

PICS .........................................................................E95

ACSI Basic Conformance Statement .......E95

ACSI Models Conformance Statement ...E96

ACSI Service Conformance Test ...............E97

TICS Mandatory IntOp TISSUES ..................E100

F Sensor software update ................. F103

G CoreSense default factory values G105

H System events ..................................H107

I Definition of exported values.........I109

Hydrogen.csv ..................................................... I109

Moisture.csv ....................................................... I109

Events.csv ........................................................... I109

J Third party legal notices ................. J111

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CHAPTER 1

Safety Information

To ensure personal safety and optimal performance, make sure you thoroughly read and understand

the contents of this manual before installing or using the instrument.

This equipment intended for field installation by qualified service personnel according to

manufacturer’s installation instructions and local/national wiring requirements.

Users must comply with all safety indications (danger, warning, caution and notices) given in this

manual.

Symbol definitions

This document uses the following symbols to bring attention to key technical and safety-related

information.

DANGER–SERIOUS DAMAGE TO HEALTH/RISK TO LIFE

Indicates a hazardous situation that, if not avoided will result in death or serious injury.

WARNING–DAMAGE TO HEALTH/RISK TO LIFE

Indicates a hazardous situation that, if not avoided could result in death or serious

injury.

CAUTION–DAMAGE TO HEALTH

Indicates a hazardous situation that, if not avoided, could result in minor or moderate

injury..

NOTICE

Indicates information considered important, but not hazard related, that could impact

things

other than personal injury,

like property damage.

WARNING–HIGH VOLTAGE

Indicates the presence of electrical energy at voltages high enough to inflict harm on

living organisms.

2 Installation Guide

LASER RADIATION

Indicates the presence of a laser related hazard. It also indicates the type of laser in

use, its wavelength and its safety class.

SHARP EDGES

Indicates the presence of sharp edges that could cause personal injury if touched.

HOT SURFACES

Indicates the presence of heat sufficient enough to cause burns.

ELECTROSTATIC DISCHARGES

Indicates a device or part of a device that is susceptible to electrostatic discharges.

Identifies any terminal intended for connection to an external conductor for protection

against electrical shock in case of a fault, or the terminal of a protective earth (ground)

electrode.

Identifies protective earth conductor terminals.

Indicates the presence of direct current.

Safety Information 3

General

DANGER

Failing to comply with any of the instructions, precautions or warnings contained in

this manual is in direct violation of the standards of design, manufacture, and intended

use of the equipment.

ABB assumes no liability for the user’s failure to comply with any of these safety

requirements which may result in personal injuries and/or equipment damages.

WARNING

Do not, under any circumstances, remove the warning and caution labels. Information

must be available at all times for the security of the user.

Read this manual thoroughly before using this equipment. If you do not fully

understand the information contained in this manual or if the equipment shows any

sign of damage, please contact ABB. Refer to the back cover of this manual for contact

information.

If the equipment is used in a manner not specified by the manufacturer, the protection

provided by the equipment may be impaired.

Electrical

The CoreSense is an overvoltage category II instrument.

Use only fuse(s) specified as appropriate for this equipment (see “Technical specifications” on

page A51.)

In accordance with international safety standards, the sensor uses a three-wire power cord typically

connected to an electrical panel that provides grounding for the sensor chassis.

DANGER

Disconnect power at the distribution panel circuit breaker before opening the sensor.

Ensure that the equipment and all devices or power cords connected to the sensor are

properly grounded. Make sure that the sensor ground is at the same potential as the

transformer ground.

Protective earthing connection (grounding) must be active at all times.

The absence of grounding can lead to a potential shock hazard that could result in

serious personnel injury. If an interruption of the protective earthing is suspected, cut

the power to the sensor at the plant’s distribution panel and have the electrical circuit

tested.

4 Installation Guide

DANGER

An external circuit breaker with a maximum rating of 15 amps must be installed on the

AC source and labeled accordingly, in compliance with your country’s national electrical

code.

In accordance with IEC61010-1 edition 3.0, to prevent contamination of the electronics by outside

elements, the sensor cover shall be removed only under controlled environmental conditions defined as:

• Temperature shall be between 5 °C and 40 °C

• Maximum relative humidity shall be 80% for temperatures up to 31 °C, decreasing linearly to 50%

relative humidity at 40 °C.

Do not expose the interior of the sensor to rain or snow.

For configuration purposes, the sensor can be powered when empty, but the thermal pump must

be turned off (this can be done in the web interface in Settings/administration settings). To prevent

accidents, the CoreSense is delivered with the thermal pump turned off.

When the installation is complete and the sensor is in contact with oil, make sure the thermal pump is

enabled in the web interface.

NOTICE

Operating the heater in air will result in failure of the thermal pump.

Handling

The CoreSense hydrogen and moisture sensor weighs approximately 8 kg. To avoid personal injuries,

make sure to use proper body mechanics (bend your knees) when lifting the sensor.

WARNING

Do not grab the sensor by the threaded NPT interface. The threaded edges are sharp

and there is a risk of personal injury.

WARNING

• During operation, the NPT port interface becomes hot. Avoid touching the surface

of the adapter.

• The sensor contains an internal heater. Thus, some parts of the sensor may be hot

when powered, i.e. all parts that contain hot oil. Always manipulate the sensor with

caution.

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CHAPTER 2

Introducing the CoreSense

The CoreSense continuously monitors hydrogen and moisture levels in oil and alerts the user when

either one starts increasing beyond a predefined threshold. Real-time monitoring complements

periodic off-line dissolved gas analysis (DGA) by alerting the user much sooner to evolving conditions.

The CoreSense can be mounted at multiple locations on the transformer including on the drain valve

because it uses a heating element to induce forced convection and ensure that fresh representative oil

is always reaching the solid state sensing elements.

The CoreSense user interface is designed as a series of simple web pages that can be accessed through

most web browsers. The web interface allows viewing of the current CoreSense status and settings.

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Figure 1 CoreSense sensor head

Cabling port

(½ NPT)

Oil sampling

access panel

1.5 NPT port interface to

transformer valve

Ground lug connection

System LED

Moisture LED

Hydrogen LED

Page intentionally left blank

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CHAPTER 3

Preparing for installation

This chapter provides information relevant to the steps that should be performed prior to installing the

CoreSense sensor.

Tools for installation

Here are the various tools necessary to install the CoreSense system.

Tools supplied by ABB

4 mm Allen key

5 mm Allen key

Spare Parts

O-ring No. 1 (Sensor enclosure) Buna-N o-ring no: AS568A DASH NUMBER 269, A50 durometer

O-ring No. 2 (Sensor brass fitting)

already installed on sensor

Metric Buna-N o-ring 3 mm width, 50 mm inside diameter

Plugs To cover unused cable gland ports

 For sampling

Additional tools (not supplied by ABB)

Laptop with Internet

Explorer 9 or above (for

sensor commissioning)

Straight Ethernet cable (for

sensor commissioning)

8 Installation Guide

2 in wrench or adjustable

wrench (50.8 mm)

8 mm wrench or adjustable

wrench (0.31 in)

Roll of PTFE tape Bucket and rags

Wire stripper Wire cutter

Flat head screwdriver

Optical termination

equipment if installing the

optional optical Ethernet

port

Torque wrench

Transformer valve adapter

(when applicable).

Necessary protection equipment

Safety shoes

Gloves

Protective

glasses

Preparing for installation 9

Unpacking

The sensor is supplied in a cardboard box with internal shock absorbing packaging. Always transport

the sensor in the packaging supplied to minimize the risk of damage.

Handling

The product is designed to withstand many industrial environmental conditions. However, a few

handling precautions will ensure reliable operation of the unit for years to come:

• DO NOT DROP the sensor.

• It is not recommended to open the CoreSense if it is raining or snowing.

• Always turn off power at the electrical panel before doing any installation or adjustment.

• Do not expose the sensor internal electronics to any liquids or dirt.

• Ensure that the cable glands are tight after connection and that all 4 cable glands contain a cable.

• Make sure the cover is well secured with the supplied o-ring once connections inside the sensor have

been completed (see "Removing the cover" on page 20).

NOTICE

While the initial (cold start) accuracy of the sensor is likely to be within specifications,

a settling period of approximately 12 hours is strongly recommended to allow the

electronic components to fully warm up and the internal temperature to stabilize.

Siting on the transformer

On the transformer, several mounting locations may be available for installing the sensor. Care should

be taken to select a mounting location where the sensor will be exposed to maximal oil flow and

minimal oil temperature. The following table and Figure 2 can be used to help select the best location.

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Table 1 Typical instrument locations

Location Benefits Issues

(A) Radiator Return • Good oil flow

• Low operating temperature

• Ease of access

• Connection flange rarely present

(B) Drain valve • Low operating temperature

• Ease of access

• Permanent availability

• Low oil flow may increase reaction time

• Sludge could accumulate here

convection

• Temperature may exceed 100 °C

• Access is difficult

• Installation requires working at height

• Mandatory power down of transformer during

installation

10 Installation Guide

Location Benefits Issues

(D) Top of radiator • Good oil flow • Temperature may exceed 100 °C

• Access is difficult

• Installation requires working at height

• Connection flange rarely present

• Mandatory power down of transformer during

installation

—

Best

installation

location

Acceptable

installation

location

Acceptable

installation

location

Good

installation

location

Figure 2 Recommended installation locations

Preparing for installation 11

Planning your cabling

Select cabling according to your communication needs. Refer to the table below for recommended

cable gauge or cable type.

Always comply with national codes and electrical standards.

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Table 2 Recommended cable gauge and type

Cable Gauge/Type Maximum length

Power

12 AWG 15 m (50 ft)

14 AWG 10 m (33 ft)

Ground 10 or 6 AWG 15 m (50 ft)

RS-485 24 AWG 1220 m (4003 ft)

Alarm relays 16 or 14 AWG N/A

4–20 mA 18 AWG N/A

Ethernet (SCADA) Category 5 cable 100 m (328 ft)

Ethernet (SERVICE) Category 5 cable 3 m (10 ft)

Ethernet (optical)

ST-ST Plenum Duplex



2000 m (6562 ft)

USB (service port) USB key only N/A

WARNING

To maintain the sensor IP67 rating, all cables must have a diameter of 10 to 14 mm

when used with the supplied cable glands. All four cable glands must contain a cable.

If necessary, tape can be used to adjust for the minimum required diameter. Failure to

comply may result in water infiltration and the presence of electrical shock hazards.

Planning your communications

The digital protocols supported by the sensor are Modbus, DNP3, and IEC 61850. Modbus and DNP3 are

available on the RS-485 serial interface, the Ethernet SCADA port or the optical Ethernet port. IEC 61850

is available on the Ethernet SCADA port or the optical Ethernet port.

Table 3 below shows the default RS-485 serial configuration. These default values can be modified at

any time using the built-in web interface.

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Table 3 Default RS-485 configuration

Baud rate 9600

Data bit 8

Stop bits 1

Parity None

Flow control None

When using Modbus, the default slave ID is 1, and when using the DNP3, the default outstation ID is 4.

12 Installation Guide

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Table 4 Summary of communication parameters

Port Default communication setup Setting options from web page

(see x-ref)

Protocol

RS-485

Baud rate 9600 Baud rate 110; 300;

600; 1200;

2400;

4800;

9600;

19200;

38400;

57600;

115200;

230400;

576000;

921600;

11520000

Modbus (point to

point only):

default slave ID = 1

Default DNP3

outstation ID = 4

Data bit 8 Data bit 7; 8

Stop bit 1 Stop bit 1; 2

Parity None Parity None;

Even; Odd

Flow control None Flow control None

Ethernet (SCADA)

DHCP client

Static IP; DHCP client

Administrator settings on

SCADA port can be enabled or

disabled using the web interface.

When the fiber optic port is in

use, the Ethernet SCADA port

must not be used.

Web http port

80/tcp

Modbus TCP port

502/tcp

DNP3 port

20000/tcp

IEC61850 MMS

port

102/tcp

Ethernet (optical)

Ethernet (SERVICE)

DHCP server

Default IP address range

172.16.100.x for PC

Default IP address for

CoreSense 172.16.100.1

Static IP; DHCP server.

ABB remote access can be

enabled or disabled using the

web interface.

NOTICE

For best results it is recommended to configure the Modbus or DNP3 master with a

timeout of 10000 ms and 5 retries.

Minimum delay between polls shall be at least 100 ms.

The DNP3 cold restart function is not supported for cybersecurity reasons.

NOTICE

Do not connect your internal network to the SERVICE port.

Preparing for installation 13

NOTICE – CYBERSECURITY

This product is designed to be connected to and to communicate information

and data via a network interface. It is the user’s sole responsibility to provide and

continuously ensure a secure connection between the product and the user network

or any other network (as the case may be). Users shall establish and maintain any

and all appropriate measures (such as, but not limited to, the installation of firewalls,

application of authentication measures, encryption of data, installation of anti-virus

programs, etc.) to protect the product, the network, its system, and the interface

against any kind of security breaches, unauthorized access, interference, intrusion,

leakage and/or theft of data or information. ABB Inc. and its affiliates are not liable for

damages and/or losses related to such security breaches, any unauthorized access,

interference, intrusion, leakage and/or theft of data or information.

ABB strives to maintain cybersecurity for its products and services. By visiting the web

page, you will find notifications about newly found software vulnerabilities and options

to download the latest software. It is recommended that you visit this web page

regularly:

http://new.abb.com/about/technology/cyber-security

Information about your product is also available on the product page:

http://new.abb.com/products/transformers/service/advanced-services/coresense

If you are planning on connecting to the Ethernet port or the optional optical Ethernet port, contact

your network administrator to confirm the network settings and check that the service ports described

in the table below are accessible. The SCADA Ethernet port and the optional optical Ethernet port are

configured at the factory as DHCP clients. Ethernet ports may also be configured with static IP settings.

The service Ethernet port is configured as a DHCP server and will automatically assign an IP address to

your laptop/PC in the 172.16.100.x range. The default server address on the service port is 172.16.100.1.

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Table 5 Application TCP ports

Application Port

Web interface 80/tcp

IEC61850 MMS 102/tcp

Modbus TCP 502/tcp

DNP3 20000/tcp

ABB diagnostic port 22/tcp

DHCP 67/udp & 68/udp

NOTICE

The ABB TCP diagnostic port can be enabled and disabled using the web interface.

14 Installation Guide

NOTICE

Do not connect your internal network to the SERVICE port.

Password protection

The sensor is secured by a password for the operator role and a password for the administrator role.

For cybersecurity reasons, it is absolutely mandatory to change the default password. Not doing so

could expose your entire network to cyberattacks.

Passwords should comply with your company’s policies and meet minimal complexity requirements to

avoid security breaches.

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Table 6 Default passwords

User role Default password

Acknowledge Ack

Administrator Admin

Default passwords can be modified using the web interface.

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CHAPTER 4

Installing the sensor head

This chapter explains the various steps necessary to physically install the CoreSense on the transformer.

NOTICE

In accordance with IEC61010-1 edition 3.0, to prevent contamination of the electronics

by outside elements the sensor cover shall be removed only under controlled

environmental conditions defined as:

Temperature shall be 5 °C to 40 °C.

Maximum relative humidity 80% for temperatures up to 31 °C, decreasing linearly to

50% relative humidity at 40 °C.

Do not expose the interior of the sensor to rain or snow.

Installation on transformer valve

The sensor is designed to be installed on a 1.5 NPT transformer valve, as explained below:

1 Loosen the eight rotating flange screws with the 5 mm Allen key.

16 Installation Guide

2 Wrap the sensor male fitting thread with PTFE tape.

3 Install the sensor on the transformer valve. An optional adapter can be used if the valve fitting is not

1.5 in. (e.g., most North American fittings are 2 in.).

WARNING

During operation, the NPT port interface becomes hot. Avoid touching the surface of

the adapter.

Tighten with a 2 in. (50.8 mm) wrench or use an adjustable wrench.

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ABB CoreSense User manual

ABB CoreSense User manual

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